JP2019516610A - Wiper blade for windscreen wiper frame - Google Patents

Abstract

The invention relates to a wiper blade (1) for a windscreen wiper, wherein at least a portion of said blade (1) comprises a material based on natural rubber and at least one additive, said additive being at least A single biosource-derived plasticizer, said blade comprising, as sole rubber, said natural rubber in vulcanized state, said vulcanized rubber being obtained by vulcanization of a nonfunctionalized natural rubber The blade (1). The invention also relates to a windscreen wiper frame comprising such a wiper blade and to a wiper system comprising such a windscreen wiper frame.

Description

  The present invention relates to wiper blades for windshield wipers, in particular to wiper blades from biosourced.

  Automobiles are usually equipped with a windshield wiper system so as not to disturb the driver's environmental vision by cleaning and / or wiping the windshield. The wiper blades of such systems are conventionally driven by an arm that performs reciprocating angular motion. These blades, for example, rub the outer surface of the glass, such as the windshield, to move the water out of the field of view of the driver. In the prior art, the wiper is manufactured in the form of a hinged arm which holds the wiper blade in several places. In more recent so-called "flat blades", the wiper is manufactured in the form of a semi-fixed assembly which holds the wiper blade at its entire length.

  Usually, the wiper blade is based on an elastomer based on an additive-supplemented elastomer, in particular in order to improve its mechanical properties, elasticity, abrasion resistance, resistance to external aggressors or to accelerate the implementation of the manufacturing process. Manufactured from a material that is These can be, for example, reinforcing fillers, vulcanizing agents, UV radiation, oxidation, ozone and / or protective agents against abrasion etc.

In most cases, both elastomers and additives are petrochemical products. However, increasing concern for environmental protection and reduction of CO ₂ emissions tends to limit the use of petrochemical products.

  In the rubber industry it is possible to use natural rubber as the underlying elastomer, which has good performance in terms of its elasticity and intrinsic mechanical properties. Natural rubber is a biosource material because it is a product derived from tree cultivation.

  However, the elastomer / additive ratio in the final product is usually of the order of 50% -50% by weight, and the level of the final product which is not from the petrochemical industry is quite low. These additives for use in the automotive industry for the production of wiper blades, in particular for obtaining materials with suitable properties in terms of mechanical properties and sliding properties which do not cause excessive noise. Is still necessary. Furthermore, the current solutions commonly use a rubber functionalized in the upstream step of the rubber vulcanization and curing operation, thus making the wiper blade manufacturing process longer and more complex.

  Thus, there is a need for wiper blades that are manufactured wholly or partially from materials that do not cause these disadvantages.

  To this end, the present invention comprises a material wherein at least part of the blade is based on natural rubber and at least one additive, said additive being at least one biosource plasticizer, The blade comprises the natural rubber in the vulcanized state as the only rubber, which proposes a wiper blade for a windshield wiper, obtained by vulcanization of a nonfunctionalized natural rubber.

  In the sense of the present invention, the term "biosource" refers not to products of fossil origin, but in particular to products of plant, animal or mineral origin. By "fossil-derived" is meant products obtained from petroleum or coal, or derivatives of petroleum or coal, in particular petrochemical products.

  The use of biosource products as plasticizers can improve the properties of natural rubber while increasing the proportion of biosource products in the material. Plasticizers, in particular, make the material more manageable and can facilitate its application in industrial manufacturing processes.

  In the sense of the present invention, the term "non-functionalized" forms the said natural rubber which has not been chemically modified by adding a chemical action to the polymer chain or by covalently adding a functional group. Should be understood as meaning the polymer chain that

  However, the natural rubber used in the present invention may have one or more purification steps aimed at removing organic (especially vegetable) and mineral impurities from the natural rubber prior to the vulcanization and curing operations. However, most of such impurities are derived from the sap of the plant from which natural gum is obtained.

  According to the invention, the use of the non-functionalized natural rubber as the only rubber of the wiper blade in combination with the biosource plasticizer makes it more environmentally friendly and easy to manufacture, its mechanical and physical properties being automotive A wiper blade suitable for wiping the window glass of can be obtained.

  Thus, the present invention does not need to rely on a mixture of natural and synthetic rubbers for its manufacture nor on the functional treatment of the rubber used to form the wiper blade prior to vulcanization and curing of the rubber. , Appropriate mechanical and physical properties can be obtained.

According to various embodiments of the present invention, the following can be realized simultaneously or separately.
The blade comprises single grade natural rubber, such as, for example, rubber TSR 10 or 20, preferably rubber TSR 20,
The plasticizer is a biosource oil,
And the solubility parameter of the Biosource oil, the difference between the solubility parameter of the natural rubber, as measured by ^{(cal / cm 3) 1/2,} 2 (cal / cm 3) is ^1/2 or less, or even 1.5 (cal / cm ³ ) ^1/2 or less, or further 1 (cal / cm ³ ) ^1/2 or less, or further 0.5 (cal / cm ³ ) ^1/2 or less,
The solubility parameter of the biosource oil is close to the solubility parameter of the natural rubber,
The solubility parameter of the biosource oil is 7 to 10 (cal / cm ³ ) ^1/2 or less, preferably 8 to 9 (cal / cm ³ ) ^1/2 or less.
The biosource oil is selected from vegetable oils and / or vegetable fats, animal oils and / or animal fats, or mixtures thereof,
The biosource oil is selected from sunflower oil, olive oil, rapeseed oil, linseed oil, coconut oil, castor oil, soybean oil, preferably a mixture of sunflower oil and rapeseed oil,
The wiper blade comprises the sunflower oil as the only oil,
The oil is fish oil,
The additive is further a biosource reinforcing filler,
The biosource reinforcing filler is selected from mineral fillers, wood fibers, cellulose, diatom plants, or mixtures thereof, preferably a mixture of mineral fillers and wood fibers,
The mineral filler is aluminum silicate such as kaolin,
90% by weight or more, preferably 95% by weight or more, or even 96% by weight or more of the material is derived from a biosource,
Less than 10% by weight, preferably less than 5% by weight, or even less than 4% by weight of said material is from non-biosource,
The portion of the blade comprising the material is the substrate of the blade,
The additive is a biosource protectant against UV radiation,
The protective agent is a metal oxide selected from titanium dioxide, zinc oxide or a mixture thereof,
The additive is a non-biosource antioxidant.
The antioxidant is diphenylamine, paraphenylene diamine, or a mixture thereof,
The additive is a non-biosource vulcanizing agent,
The vulcanizing agent is selected from thiuram, thiazole, sulfenamide, or a mixture thereof, preferably a mixture of thiuram, thiazole and sulfenamide.

  The invention also relates to a windshield wiper comprising a wiper blade according to the invention.

  The invention finally relates to a wiping system comprising a windshield wiper according to the invention.

  DETAILED DESCRIPTION OF THE INVENTION With reference to the appended FIG. 1 which is a schematic cross-sectional view of a wiper blade according to an embodiment of the invention, the following detailed description of an embodiment of the invention will be given by way of nonlimiting example for the purpose of illustration only From the illustrative description, the invention can be better understood and further objects, details, features and advantages of the invention become more apparent.

FIG. 5 is a schematic cross-sectional view of a wiper blade, according to an embodiment of the present invention.

<Detailed description>
The wiper blade 1 according to the invention is
A material based on natural rubber and at least one additive.
The additive is, for example, a biosource plasticizer.

  The plasticizer is a component to make the material for producing the wiper blade more flexible and / or easier to handle. In general, plasticizers are often oils. As used herein, the plasticizer according to the invention is a biosource oil.

When the biosource oil is measured at (cal / cm ³ ) ^1/2 , the difference between the solubility parameter of biosource oil and the solubility parameter of natural rubber is 2 (cal / cm ³ ) ^1/2 or less, Or further selected to be 1.5 (cal / cm ³ ) ^1/2 or less, or further 1 (cal / cm ³ ) ^1/2 or less, or further 0.5 (cal / cm ³ ) ^1/2 or less Be done.

The solubility parameter of natural rubber is 8.3 (cal / cm ³ ) ^1/2 .

  In other words, the solubility parameter of biosource oil is close to the solubility parameter of natural rubber. This ensures that the selected biosource oil (or mixture of biosource oils) is compatible with natural rubber and has good affinity, ie the oil mixes well with natural rubber It will be.

Thus, the solubility parameter of the Biosource ^{oil, 7~10 (cal / cm 3)} 1/2, preferably ^{8~9 (cal / cm 3) 1/2} .

  The biosource oil is, for example, selected from vegetable oils and / or vegetable fats, but also from animal oils and / or animal fats, or mixtures thereof.

  Advantageously, the vegetable oil and / or vegetable oil is selected from sunflower oil, olive oil, rapeseed oil, linseed oil, coconut oil, castor oil, soybean oil. Preferably, it is a mixture of sunflower oil and rapeseed oil.

  Animal oil and / or fat is selected from fish oil.

These Biosource oils are known to have a solubility parameter of ^{8.2~8.4 (cal / cm 3) 1/2} . As an example, the solubility parameters for selecting the oils are listed in the following table.

According to the invention, as the only rubber of the wiper blade, a non-functionalized natural rubber is combined with one or more biosource oils with a solubility parameter of 8.2 to 8.4 (cal / cm ³ ) ^1/2 By using it, it is possible to obtain a wiper blade which is environmentally friendly, easy to manufacture and whose mechanical and physical properties are very suitable for wiping automobile window glass.

  Preferably, the material further comprises a biosource reinforcing filler as an additive.

  Reinforcing fillers can improve the mechanical properties of the rubber. In particular, the breaking strength and / or the friction properties of the wiper blade 1 can be improved.

  The biosource reinforcing filler is, for example, selected from mineral fillers, wood fibers, cellulose, diatom plants or mixtures thereof. Preferably, the biosource reinforcing filler is a mixture of mineral filler and wood fibers.

  These types of reinforcing fillers make it possible to improve the mechanical properties of natural rubber while limiting the use of non-biosourced carbon blacks conventionally used as elastomeric reinforcing fillers in the automotive sector.

  The mineral filler is preferably an aluminum silicate such as kaolin. Kaolin means an aluminum silicate rich mineral species, in particular a hydrous aluminum silicate rich mineral species such as kaolinite. It may also be calcined kaolin.

Advantageously, the material is
30 to 45% by mass, preferably 35 to 40% by mass of natural rubber,
35 to 55% by weight, preferably 40 to 50% by weight, of a biosource reinforcing filler,
1 to 10% by mass, preferably 4 to 7% by mass of a biosource plasticizer,
Including.

  The materials are generally known to the person skilled in the art in order to improve the implementation of the method of the invention, in particular to improve the mechanical properties, elasticity, abrasion resistance, resistance to external aggressors or others. The above additives may be further contained.

  It can be, for example, a vulcanizing agent or a protective agent against UV radiation, oxidation, ozone and / or abrasion, and the like. The additive is a biosource-derived additive such that 90% by weight or more, preferably 95% by weight or more, or even 96% by weight or more of the material is from a biosource.

  In other words, less than 10%, preferably less than 5% or even less than 4% by weight of the material is from non-biosource.

  Advantageously, "non-biosource" products are products of fossil origin, in particular of petrochemical origin.

  Thus, the material comprises at least one biosource protectant against UV radiation as an additive. The protective agent is, for example, a metal oxide selected from titanium dioxide, zinc oxide, or a mixture thereof.

  The metal oxide may be combined with an acid such as stearic acid and / or palmitic acid. When reacted with the metal oxide, the acid forms a salt, which can dissolve the metal oxide in the mixture.

  The material further comprises a non-biosource additive. They can be at least one non-biosource additive and / or at least one non-biosource vulcanizing agent.

  The antioxidant is selected, for example, from diphenylamine, paraphenylene diamine, or a mixture thereof.

  The vulcanizing agent is selected, for example, from thiuram, thiazoles, sulfenamides, or mixtures thereof. Preferably, the vulcanizing agent is a mixture of thiuram, thiazole and sulfenamide. Any other antioxidant and / or any other vulcanizing agent known to the person skilled in the art may also be envisaged.

  According to FIG. 1, the wiper blade 1 of the windshield wiper according to the invention has an elongated shape and is supported by a wiper body (not shown). The blade 1 comprises a lip 3 and a heel 5 which are connected by a hinge 7. The lip 3, the heel 5 and the hinge 7 together form the base of the blade 1.

  The heel 5 allows the blade 1 to be anchored in the body of the wiper. The lip 3 is intended to contact the outer surface of the glazing in order to wipe the glazing, such as the windshield.

  The hinge 7 is formed by a thin piece of material, which gives the blade some flexibility and allows the blade to move smoothly during changes in the direction of movement of the wiper, in other words the lip is reciprocating To move in reverse.

  The blade 1 is obtained by conventional manufacturing methods known to those skilled in the art.

Advantageously, at least part of the blade 1 comprises the above-mentioned material, in particular the substrate of the blade comprises this material. The inventors therefore, for example, envision the following embodiment.
An embodiment wherein only lip 3 comprises said material;
An embodiment wherein only the heel 5 comprises the material;
Embodiment where the entire blade 1 comprises the material.

  Also, if desired, all or part of the surface of the blade 1 may be treated to be modified by, for example, graphitization, plasma treatment, halogenation, ion implantation and / or deposition of a coating. This treatment can enhance the mechanical properties, wiping properties and / or wear resistance of the blade.

  The wiper blade 1 may thus comprise a coating of single-layer or multilayer structure. The coating covers the substrate of the blade 1.

  Examples of formulations of the materials used to produce the wiper blade 1 according to the invention are given below for the purpose of illustration only, but the invention is in no way limited thereto. The units are shown in phr (percentage to rubber).

  The vulcanization kinetics of the material of this example were investigated. The measurements were performed according to the ISO 3417 standard. The results are as follows.

  The vulcanization took 5 minutes at 165 ° C.

  The Mooney viscosity of this material was also measured according to the ISO 289 standard. The Mooney viscosity of this material is 54 Mooney units. From the application point of view, the material can be used in an industrial process by shaping or extruding with mixing process with short cycle times on the order of 4 to 8 minutes.

  Tests were also conducted to inspect the properties of the material, in particular the mechanical properties.

  The initial hardness of the material is 64 IRHD (international rubber hardness). Hardness measurements were made according to the ISO 48 and ISO 188 standards.

  Tensile strength measurements, ie tensile tests, were carried out at 500 mm / min according to the ISO 37 standard. The results are summarized in the table below.

  The elongation of the material subjected to 50% elongation (setting 50% elongation) at 70 ° C. for 22 hours is 9%. This was measured according to the ISO 2285 standard.

  The elasticity is 67%, accompanied by a 28% hysteresis effect. The elasticity was measured according to DIN 53512 standard and the hysteresis effect was determined according to NF-T 46002 standard.

  These properties are at the same level as the properties of conventional compounds derived from non-biosources, in particular compounds based on carbon black as reinforcing filler and non-biosource plasticizers.

  Thus, in this example, a combination of two biosource reinforcing fillers, kaolin and wood fibers was used instead of conventional carbon black. This combination of reinforcing fillers was used with a combination of two biosource plasticizers, sunflower oil and rapeseed oil. This dual combination can yield a material comprising less than 5% by weight non-biosource additive while having the mechanical properties necessary for use in wiper blade manufacture.

  It should be noted that various variations of embodiments are of course possible, and the invention is not limited to only wiper blades comprising the materials of the exemplified formulation.

Claims (15)

  A wiper blade (1) for a windshield wiper, wherein at least a portion of said blade (1) comprises a material based on natural rubber and at least one additive, said additive comprising at least one bio A source-derived plasticizer, said blade comprising, as the only rubber, said natural rubber in vulcanized state, said vulcanized rubber being obtained by vulcanization of a non-functionalized natural rubber, wiper blade (1) .   The wiper blade (1) according to claim 1, wherein the plasticizer is a biosource oil. The difference between the solubility parameter of the Biosource oil, a solubility parameter of the natural rubber, as measured by ^{(cal / cm 3) 1/2,} 2 (cal / cm 3) is ^1/2 or less, wherein The wiper blade (1) according to item 1 or 2. The solubility parameter of the biosource-derived oil is 7 to 10 (cal / cm ³ ) ^1/2 , preferably 8 to 9 (cal / cm ³ ) ^1/2 , more preferably 8.2 to 8.4 ( is cal ^/ cm ^{3) 1/2,} the wiper blade according to any one of claims 1-3 (1).   A wiper blade (1) according to any one of the preceding claims, wherein the biosource oil is selected from vegetable oil and / or vegetable fat, animal oil and / or animal fat, or mixtures thereof.   The wiper blade (1) according to any of the preceding claims, wherein the additive is further a biosource reinforcing filler.   A wiper blade (1) according to any one of the preceding claims, wherein the biosource reinforcing filler is selected from mineral fillers, wood fibres, cellulose, diatomaceous plants or mixtures thereof.   A wiper blade (1) according to any of the preceding claims, wherein the mineral filler is aluminum silicate.   A wiper blade (1) according to any of the preceding claims, wherein at least 90% by weight of the material is from a biosource.   10. A wiper blade (1) according to any of the preceding claims, wherein the portion of the blade comprising the material is the substrate of the blade.   A wiper blade (1) according to any of the preceding claims, wherein the additive is a biosource protectant against UV radiation.   The wiper blade (1) according to any of the preceding claims, wherein the additive is a non-biosource antioxidant and / or a non-biosource vulcanizing agent.   A wiper blade (1) according to any one of the preceding claims, wherein the blade comprises single grade natural rubber.   A windshield wiper, comprising a wiper blade (1) according to any of the preceding claims.   A wiping system comprising the windshield wiper according to any one of the preceding claims.

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